51st Lunar and Planetary Science Conference (2020) 1880.pdf DETECTION OF NEW POTENTIAL SITE OF LAVA TUBE IN MARIUS HILLS REGION BY THREE COMPONENT DECOMPOSITION TECHNIQUE OF LRO Mini-RF DATA. Ankita Vashishtha1 and Dr.Shashi Kumar2, 1Indian Institute of Remote Sensing, Dehradun, India ([email protected]), 2Faculty in Indian Institute of Remote Sensing, Dehradun, India ([email protected]). Introduction: Planets that are devoid of atmos- ratio of the intensity of the same sense polarized to the phere like Earth’s Moon are constantly exposed to the opposite sensed polarized waves i.e (S1-S4)/(S1+S4), solar wind, Galactic Cosmic Radiation (GCR) and me- where S1 and S4 are first and fourth stokes parameter. teorites. Settling a permanent human base on the lunar Further analysis has been done by evaluating the CPR surface is an important upcoming mission[1]. A lava image and Cloude decomposition technique [6]. CPR tube could be a potential site for such a base settlement. image shows a value greater than one, which indicates The lava tube is subsurface channels in the lunar surface enhanced volume scattering in the region. This en- which are conduits through which once volcanic lava hanced volume scattering is an indication of the pres- flowed [2]. When lava ceased to flow, these structures ence of an intact lava tube [7]. Moreover, high values of became a conduit shaped tubes with an opening at the CPR indicate high same sense polarization which is an one end. These structures may behave like a shield to indication of the presence of lava tube. protect from meteor bombardment. They may also On performing the Cloude decomposition tech- shield from solar wind weathering and more harmful nique, the Marius Hills region is characterized by a di- Galactic Cosmic Radiation (GCR) [3]. These lava tubes verse scattering mechanism. In the Cloude decomposi- maintain a constant temperature inside and may provide tion image, the subsurface feature shows enhanced vol- excellent shielding against a highly varying temperature ume scattering [6] and evidence indicates a continued on the lunar surface. Lava tubes could act as a potential channel connecting the rille feature with the nearby site for the base settlement of future manned missions. crater. In order to confirm the absence of any surface Moreover, due to the presence of relatively stable tem- feature on the marked location, the LRO NAC image is perature and shielding from solar wind weathering in also referred for conclusive evidence. The cloude de- lava tubes, the possibility of the presence of lunar vola- composition clearly splits the received intensity into tile material is more feasible [2]. three components namely, PD which is the dihedral Radar remote sensing is an important technology in component, PV which is the volume component and PS the detection of these subsurface features. Due to the which is the surface scattering component [6]. Cloude penetrating capacity of a longer wavelength SAR sys- decomposition technique is superior to Eigen value- tem, sub-surface information retrieval through scatter- based H-Alpha decomposition because angle Alpha ing could be acquired. Moreover, high-resolution im- can’t cover the random scatters in the target area com- ages provided from LRO NAC strengthens the existence pletely [6]. That’s why Cloude decomposition is a pre- of potential site of lava tubes. ferred decomposition technique for the detection of sub- In this study, an attempt is made to study the backscat- surface features like lava tubes. The images of the LRO tering response of the LRO Mini-RF data and to explore NAC and Cloude decomposition technique are as given the potential site of a lava tube in the Marius Hills re- below: gion. Marius Hills Region: Marius Hills region is an im- portant Lunar Maria region consisting of a set of vol- canic domes. It is situated near the crater Marius in the Oceanus Procellarum region on the Moon. This region is known to be formed of the highest concentration of volcanic features on the Moon [5]. The presence of fa- mous skylight had already been confirmed in the Marius hills. However, due to the presence of a vast volcanic feature, there is a probability of finding more intact lava tubes in the Marius Hills region [4]. Methodology & Observation: During the prelimi- fig 1: LRO NAC image for a potential site. The nary analysis of the LRO Mini-RF dataset of the poten- image clearly indicates the absence of any surface fea- tial site in the Marius Hills region, a subsurface feature ture. is prominently visible in stokes parameter images. Cir- cular Polarization Ratio (CPR) may be defined as the 51st Lunar and Planetary Science Conference (2020) 1880.pdf fig 2: Cloude Decomposition RGB composite. Conclusion: SAR sensor has the capacity to retrieve the subsurface structural property which is similar to the shape of a channel in this study and as identified from the SAR data shows a structure of a lava tube. References: [1] Loic Chapaz (2017) GRL,10.1002,p 1- 8 [2] Coombs C.R.and Hawke B.R. (1992) NASA CP- 3166, vol. 1, p 219-229. [3] Spudis P. D. et al. (2010), Ge- ophys. Res. Lett., 37, L06204[4] Ronald Greely (1971) ,NASA,p 289-313,[5] Bruce A Campbell (2009) GPR, JE003253,Vol.114, p 1-10 [6]S.R Cloude (2012) IEEE, Vol.9, p 28-32,[7]Shaswat Shukla(2019),LPI-2019,p 1-2 .
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